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Nanocrystallization and Core-loss properties of Fe-rich FeSiBPNbCu nanocrystalline alloy
Journal
Journal of Magnetism and Magnetic Materials
Date Issued
2022
Author(s)
Murugaiyan P.
Indian Institute of Technology Jodhpur
Mitra A.
Roy R.K.
Panda A.K.
Abstract
The present work investigates the structure, soft-magnetic and core-loss properties of 25 mm wide Fe83Si2B9P4Nb1Cu1 nanocrystalline ribbons. The melt-spun precursor ribbons of the thickness of 22 and 28 �m were prepared using commercial raw materials under ambient atmosphere. The XRD and DSC results show predominantly amorphous and hetero-amorphous structure for 22 and 28 �m ribbons in the as-quenched state. Further, the partial crystallization annealing leads to thickness dependent nanocrystallization process, wherein the thinner 22 �m ribbon shows sluggish primary(?-Fe(Si)) and delayed secondary(Fe3(B0.8P0.2)) crystallization process compared to 28 �m ribbons. The difference is explained through as-quenched precursor matrix structure and selective solute re-distribution of the intergranular region during nanocrystallization. Moreover, the higher crystallite size (D) and volume fraction(Vcr) of ?-Fe(Si) nanocrystallites are observed for the 28 �m ribbon in the optimal annealing window. Under optimal annealing conditions, the 28 �m nanocrystalline ribbon (733 K) shows better AC soft-magnetic properties including B800 of 1.62 T, Hc of 15.7 A/m, Br/Bs ratio ? 0.8 compared to B800 of 1.59 T, Hc of 17 A/m and Br/Bs ratio ? 0.7 of 22 �m (743 K) ribbon. The 28 �m ribbon shows a low core loss (P) of 0.34 W/kg under 50 Hz, 1.5 T compared to P > 0.65 W/kg for 22 �m ribbons. The lower core-loss behaviour of thicker 28 �m in the sub-kHz frequency regime has been explained based on the nanocrystalline microstructure and loss coefficients (hysteresis and eddy current). The work compares the AC core-loss properties with reported Fe-rich nanocrystalline alloys and also discusses the scope of improving B800 beyond 1.65 T for the present alloys. � 2022 Elsevier B.V.
Volume
552
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